4-Hydroxyamphetamine
4-Hydroxyamphetamine, also known as p-hydroxyamphetamine or hydroxyamfetamine, is a sympathomimetic amine that serves as an active metabolite of amphetamine and methamphetamine, characterized by a hydroxyl group substitution at the para position of the phenyl ring in the amphetamine structure, with the molecular formula C₉H₁₃NO.[1][2] It functions primarily as a mydriatic agent in ophthalmic preparations, where it induces pupil dilation by releasing norepinephrine from adrenergic nerve terminals, facilitating diagnostic eye examinations such as those for Horner syndrome.[1][2] As an indirectly acting sympathomimetic, 4-hydroxyamphetamine stimulates the sympathetic nervous system, particularly through agonism at the trace amine-associated receptor 1 (TAAR1) and enhancement of norepinephrine release, which contributes to its mydriatic effects without significant systemic absorption when applied topically.[3][1] In metabolism, it is formed via cytochrome P450 2D6 (CYP2D6)-mediated hydroxylation of amphetamine, representing approximately 3% of the parent compound's dose in humans, primarily in conjugated form, and is subsequently excreted in urine in a pH-dependent manner.[4][2] Medically, it is formulated as eye drops (often combined with tropicamide under brand names like Paremyd) for safe, localized use in neuro-ophthalmic testing, with minimal side effects due to its slow onset and targeted action on Müller's muscle.[1][2] Beyond its clinical applications, 4-hydroxyamphetamine has been studied for its role in the pharmacological profile of amphetamines, exhibiting lower toxicity compared to the parent compound while retaining central and peripheral sympathomimetic activity, though it is not approved for systemic use.[5][2] Its stereoselective metabolism and detection in biological fluids also aid in forensic and toxicological analyses of amphetamine exposure.[6]Medical uses
Diagnostic applications
4-Hydroxyamphetamine serves as a mydriatic agent in topical ophthalmic formulations, primarily administered as 1% eye drops to induce pupil dilation (mydriasis) for facilitating fundus examinations and other diagnostic ocular assessments.[2] This application leverages its sympathomimetic properties to safely dilate the pupil in patients, including those with shallow anterior chambers, due to its relatively slow onset and minimal side effects compared to other mydriatics.[2] A key diagnostic role involves its use in the hydroxyamphetamine test, often following cocaine instillation, to localize lesions in the oculosympathetic pathway for Horner’s syndrome.[7] In this protocol, one drop of 1% hydroxyamphetamine is instilled into both eyes 48 hours after cocaine testing, with pupil responses evaluated after 45-60 minutes.[7] Dilation of the affected pupil indicates an intact postganglionic (third-order) neuron, suggesting a preganglionic or central lesion, whereas failure to dilate points to a postganglionic lesion.[7][8] Diagnostic limitations include the need for a 48-72 hour delay after cocaine or apraclonidine use to avoid interference from norepinephrine depletion, which can lead to false positives mimicking postganglionic lesions.[7] In acute Horner’s syndrome within the first week post-injury, false-negative results may occur due to incomplete degeneration of presynaptic terminals.[7] Additionally, normal variability in pupil response can limit localization accuracy, as a normal test does not reliably distinguish between central and preganglionic lesions, and transsynaptic degeneration may cause false positives in recent preganglionic cases.[8][9] Drug availability further restricts widespread clinical use, particularly following the discontinuation of commercial formulations in recent years.[7][10]Available forms and administration
4-Hydroxyamphetamine, also known as hydroxyamphetamine, was previously available as a 1% hydroxyamphetamine hydrobromide ophthalmic solution under the brand name Paredrine for topical ocular administration to induce mydriasis. However, Paredrine has been discontinued and is no longer commercially available. The combination product Paremyd, consisting of 1% hydroxyamphetamine hydrobromide and 0.25% tropicamide in a sterile ophthalmic solution packaged in 15 mL dropper bottles (NDC 17478-704-12), was introduced to enhance the speed and efficacy of mydriasis for diagnostic purposes but was discontinued by the manufacturer Akorn in 2023 and is no longer available as of November 2025.[11][12][13] Due to these discontinuations, hydroxyamphetamine is no longer routinely used in clinical practice, with alternatives such as phenylephrine employed for mydriasis and Horner syndrome evaluation. For the discontinued Paredrine, the standard dosing regimen involved instilling 1 drop of the 1% solution into the conjunctival sac of each eye, with an onset of mydriasis typically occurring in 45-60 minutes and a duration extending up to 24 hours.[10][7] For Paremyd, the recommended dose was 1-2 drops instilled into the conjunctival sac of the eye(s) requiring dilation, with onset within 15 minutes, maximum effect at 60 minutes, and recovery generally within 6-8 hours, though it may last up to 24 hours in some individuals.[11][14] Administration of either formulation followed standard ophthalmic instillation procedures: the patient should tilt their head backward, pull down the lower eyelid to create a conjunctival pouch, and apply the drops without allowing the dropper tip to touch the eye or any surface to prevent contamination. After instillation, the patient should close their eyes gently for 1-2 minutes, avoid blinking or rubbing the eye, and apply light finger pressure to the inner corner of the eye (lacrimal sac) for at least 1 minute to reduce systemic absorption and nasolacrimal drainage.[14] Soft contact lenses should be removed prior to administration due to potential preservative irritation and may be reinserted approximately 15 minutes after the drops are applied.[11] Paremyd should be stored at controlled room temperature (15°C to 25°C or 59°F to 77°F) and protected from light to maintain stability.[11] Historically, both Paredrine and Paremyd faced manufacturing and availability challenges in the late 1990s, leading to shortages; Akorn, Inc. acquired the rights from Allergan in 1997 and reintroduced Paremyd to the U.S. market in March 2002 following FDA approval.[15][16] However, following Akorn's bankruptcy in 2023, Paremyd was discontinued, resulting in its permanent withdrawal from the market.[13][12]Pharmacology
Pharmacodynamics
4-Hydroxyamphetamine functions primarily as a norepinephrine releasing agent (NERA) by promoting the reversal of the vesicular monoamine transporter 2 (VMAT2), which displaces norepinephrine from synaptic vesicles into the cytoplasm, and by inhibiting the norepinephrine transporter (NET), thereby preventing reuptake and increasing synaptic norepinephrine levels.[17][2] This indirect sympathomimetic action leads to enhanced stimulation of alpha- and beta-adrenergic receptors without direct agonism at these sites.[1] It also acts as a partial agonist at trace amine-associated receptor 1 (TAAR1), with an EC50 of approximately 0.05–0.2 μM in rat TAAR1-expressing cells, contributing to its overall sympathomimetic and stimulant effects by modulating monoamine signaling.[18][19] Additionally, 4-hydroxyamphetamine exhibits serotonin releasing agent (SRA) properties, facilitating serotonin release, and weakly inhibits monoamine oxidase A (MAO-A), reducing serotonin metabolism, though these effects are less pronounced compared to amphetamine.[20][21] The resulting physiological effects include elevated heart rate (tachycardia) and blood pressure due to beta-adrenergic stimulation and alpha-adrenergic vasoconstriction, respectively, as well as mydriasis (pupil dilation) mediated by alpha-adrenergic activation in the iris.[22][21] Relative to amphetamine, 4-hydroxyamphetamine demonstrates reduced central nervous system stimulation owing to its greater polarity and limited blood-brain barrier penetration, while retaining comparable peripheral sympathomimetic potency.Pharmacokinetics
4-Hydroxyamphetamine is administered topically to the eye as a 1% solution (Paredrine), producing primarily local mydriatic effects with minimal systemic absorption due to its ophthalmic route of delivery. The onset of mydriasis occurs within 15-30 minutes, with peak dilation achieved at approximately 45-60 minutes and mydriasis lasting 3-6 hours; pupil size returns to normal within 24 hours.[23][22] In cases of systemic absorption, 4-hydroxyamphetamine undergoes rapid distribution to peripheral tissues, including sympathetic nerve terminals. It is extensively metabolized in the liver, primarily via conjugation to form water-soluble metabolites, with further involvement of cytochrome P450 2D enzymes in its hydroxylation and elimination pathways; inhibitors of CYP2D reduce urinary elimination of the compound.[24] Excretion occurs mainly through the kidneys, with up to 3% of an administered dose (or equivalent from parent compounds) appearing as free 4-hydroxyamphetamine in urine and the majority as the conjugated form, totaling around 60-65% recovery in humans over 3-4 days; renal clearance is pH-dependent, accelerating in acidic urine.[4] The elimination half-life, inferred from studies of related amphetamines and its metabolic profile, ranges from 7 to 13 hours in adults, though specific data for standalone administration are limited.[25] Pharmacokinetic variability is notable in certain populations. In the elderly, reduced hepatic metabolism and CYP2D6 activity may prolong exposure, while hepatic impairment inhibits elimination, leading to higher plasma levels and extended effects. Renal dysfunction similarly delays clearance due to the urinary excretion pathway. Drug interactions can alter kinetics: monoamine oxidase inhibitors potentiate sympathomimetic effects by preventing norepinephrine breakdown, risking enhanced toxicity, and CYP2D6 inhibitors or substrates (e.g., certain antidepressants) may decrease 4-hydroxyamphetamine metabolism.[26][27]Metabolism and role as an amphetamine metabolite
4-Hydroxyamphetamine is formed as a primary metabolite of amphetamine through aromatic hydroxylation primarily catalyzed by the cytochrome P450 enzyme CYP2D6 in the liver.[26] This pathway accounts for approximately 2% of amphetamine's overall metabolism in humans, though the exact fraction can vary based on individual enzyme activity.[2] The process involves the addition of a hydroxyl group at the para position of the amphetamine phenyl ring, yielding the pharmacologically active 4-hydroxyamphetamine.[26] Following formation, 4-hydroxyamphetamine undergoes further metabolism, including oxidation by dopamine β-hydroxylase to produce 4-hydroxynorephedrine, a norepinephrine analog that retains sympathomimetic activity. It is also subject to phase II conjugation reactions, forming glucuronide and sulfate conjugates that facilitate renal excretion.[28] These conjugated forms are primarily eliminated in urine, contributing to the detection of amphetamine use in drug screens where 4-hydroxyamphetamine serves as a biomarker.[29] Genetic polymorphisms in CYP2D6 significantly influence 4-hydroxyamphetamine production; poor metabolizers exhibit reduced levels of this metabolite due to diminished enzyme function, potentially altering amphetamine's overall disposition.[30] In terms of pharmacological implications, 4-hydroxyamphetamine contributes to the peripheral sympathomimetic effects of amphetamine, such as vasoconstriction and increased heart rate.[2] Toxicologically, 4-hydroxyamphetamine and its downstream metabolite 4-hydroxynorephedrine play roles in amphetamine-induced neurotoxicity, with 4-hydroxynorephedrine demonstrating greater cytotoxicity in dopaminergic cells and longer persistence in the brain compared to the parent compound.[31] This persistence underscores their potential contribution to long-term neuronal damage observed in amphetamine abuse.[5]Chemistry
Chemical structure and properties
4-Hydroxyamphetamine has the molecular formula C₉H₁₃NO and the systematic IUPAC name 4-(2-aminopropyl)phenol.[32][33] The free base has a molecular weight of 151.21 g/mol, while the hydrobromide salt, which is the form used clinically, has the formula C₉H₁₄BrNO and a molecular weight of 232.12 g/mol.[32] It appears as a white to off-white crystalline solid.[34] Key physical properties include a predicted logP value ranging from 0.58 to 1.0, indicating moderate lipophilicity; a pKa of approximately 9.8 for the amine group and 10.5 for the phenolic hydroxyl; and solubility in water (predicted ~3 mg/mL) and ethanol (up to 30 mg/mL for the hydrochloride salt).[35][3] These properties reflect its increased polarity due to the para-hydroxyl substitution on the phenyl ring compared to amphetamine, which reduces its ability to penetrate the blood-brain barrier.[36] For analytical identification, 4-hydroxyamphetamine exhibits characteristic spectroscopic features. In mass spectrometry, the molecular ion appears at m/z 151, with prominent fragments at m/z 136 (loss of CH₃) and m/z 108.[33] Infrared spectroscopy shows absorption bands at approximately 3300 cm⁻¹ (O-H and N-H stretch) and 1600-1500 cm⁻¹ (aromatic C=C stretch), while ¹H NMR reveals signals for the phenolic proton around 5-6 ppm, aromatic protons at 6.7-7.2 ppm, and the benzylic CH₂ at ~2.7 ppm.[33][32]Synthesis and preparation
4-Hydroxyamphetamine is typically synthesized in the laboratory through reductive amination of 4-hydroxyphenylacetone (p-hydroxyphenyl-2-propanone) with ammonia, using a reducing agent such as sodium cyanoborohydride or catalytic hydrogenation.[37] This method, which involves the formation of an imine intermediate followed by reduction to the primary amine, has been a standard approach since the early 20th century, with early descriptions appearing around 1910 via reduction of the ketone precursor.[38] Yields for this reaction can reach 70-90% under optimized conditions, such as in supercritical carbon dioxide at 35°C and 1500 psi, which facilitates the process while minimizing side products.[37] Alternative routes include the Henry reaction (nitroaldol condensation) of p-hydroxybenzaldehyde with nitroethane to form a nitroalkene, followed by reduction to the ketone and subsequent reductive amination.[38] A protected variant starts from 4-methoxybenzaldehyde, condensing with nitroethane in the presence of a primary amine catalyst to yield the nitropropene, which is reduced (e.g., with iron and HCl) to 4-methoxyphenylacetone, then aminated and demethylated.[38] These multi-step processes allow access from commercially available aromatic aldehydes and are adaptable for analog synthesis. The hydrobromide salt, used in pharmaceutical formulations like ophthalmic solutions, is prepared by treating the free base with hydrobromic acid in a suitable solvent, followed by precipitation and recrystallization to achieve purity greater than 99%.[38] This salt formation enhances stability and solubility for diagnostic applications. Synthesis challenges include achieving stereoselectivity for the (S)-enantiomer, which exhibits greater sympathomimetic activity; asymmetric reductive amination using chiral catalysts or enzymes can yield enantiomeric excesses over 95%.[37] Impurities such as 4-hydroxymethamphetamine must be avoided by using ammonia exclusively, as methylamine would lead to N-methylation; rigorous control of reagents and purification steps mitigates this.[38] For commercial scale-up, the process employs continuous flow reductive amination in large reactors, with purification via acid-base extraction and crystallization from ethanol or isopropyl alcohol to isolate the hydrobromide salt at kilogram scales, ensuring compliance with pharmaceutical standards.[37]History
Early development
4-Hydroxyamphetamine, also known as p-hydroxyamphetamine, emerged in the scientific literature during the 1940s as a sympathomimetic agent derived from amphetamine analogs. It was first synthesized around 1910 as part of early investigations into sympathomimetic amines. Early investigations focused on its potential as a nasal decongestant and pressor agent, with initial clinical testing reported in 1948 using hydroxyamphetamine hydrobromide (Paredrine) as a spray for upper respiratory conditions, demonstrating its vasoconstrictive effects comparable to those of other sympathomimetics.[39] These studies highlighted its ability to mimic epinephrine's actions on alpha-adrenergic receptors, though with a more indirect mechanism involving catecholamine release rather than direct agonism.[21] In the 1940s and 1950s, researchers explored its mydriatic potential through topical application, noting pupil dilation in animal models and human subjects as a result of norepinephrine release from postganglionic sympathetic neurons. Preclinical animal testing during this period demonstrated that 4-hydroxyamphetamine induced significant norepinephrine efflux from sympathetic nerve endings, leading to ocular effects such as mydriasis and elevated intraocular pressure, which were less pronounced than those of direct agonists like epinephrine but sustained due to its releasing properties. These findings positioned it as a useful tool for assessing sympathetic function in the eye, with comparisons to epinephrine underscoring its role in indirect sympathomimetic activity.[2] Naming conventions during this period standardized it as p-hydroxyamphetamine or hydroxyamfetamine, distinguishing it from other amphetamine derivatives in pharmacological literature.[40] By the 1960s, metabolic studies revealed 4-hydroxyamphetamine's significance as a key metabolite of amphetamine in humans, with research detecting its presence in urine following amphetamine administration, confirming aromatic hydroxylation as a primary pathway. These investigations, building on earlier animal data, quantified its excretion as conjugated 4-hydroxyamphetamine, accounting for a notable portion of amphetamine's biotransformation and contributing to its overall sympathomimetic profile.[41]Commercial introduction and availability
4-Hydroxyamphetamine was first commercialized in the mid-20th century as Paredrine, a 1% hydroxyamphetamine hydrobromide ophthalmic solution developed by Smith Kline & French Laboratories for inducing mydriasis in diagnostic eye examinations.[42] In the 1990s, a combination formulation known as Paremyd—containing 1% hydroxyamphetamine hydrobromide and 0.25% tropicamide—was introduced by Allergan Inc. to provide faster-onset pupil dilation compared to hydroxyamphetamine alone, with a marketing start date of January 30, 1992.[43] A nationwide shortage of hydroxyamphetamine-based products, including Paredrine and Paremyd, occurred in the early 2000s due to raw material supply disruptions, leading to their temporary removal from the U.S. market. In 1998, Akorn Inc. acquired the rights to both brands from Allergan; the company resolved the shortage by reintroducing Paremyd in March 2002 as a faster-acting mydriatic option.[15][1] As of 2025, Paremyd continues to face availability challenges stemming from ongoing manufacturing delays at Akorn, which halted production following its 2023 bankruptcy and shutdown. Paredrine is no longer commercially manufactured and is typically prepared on-demand by compounding pharmacies for limited neuro-ophthalmic applications. Internationally, distribution remains restricted due to the drug's niche diagnostic role, with approvals noted in select markets such as the Czech Republic by 2004, though global supply is minimal. Current production is primarily handled by specialized pharmaceutical firms, with heightened discontinuation risks for legacy brands amid supply chain vulnerabilities.[44][2][45]Society and culture
Nomenclature
The generic name for 4-hydroxyamphetamine is hydroxyamphetamine, with the International Nonproprietary Name (INN) designated as hydroxyamfetamine.[1][46] The systematic IUPAC name is 4-(2-aminopropyl)phenol, equivalently expressed as 1-(4-hydroxyphenyl)propan-2-amine or 4-(1-methyl-2-aminoethyl)phenol in chemical nomenclature.[47][1] Other synonyms include 4-hydroxy-α-methylphenethylamine and p-hydroxyamphetamine.[47][48] Brand names include Paremyd for the combination product with tropicamide, manufactured by Akorn. The standalone formulation was formerly marketed as Paredrine but is no longer commercially available and is now prepared as a compounded 1% ophthalmic solution by some pharmacies.[49][50][2] In international contexts, the INN hydroxyamfetamine is used alongside abbreviations such as 4-HA or p-OHA in scientific literature.[46][3]Legal status
In the United States, 4-Hydroxyamphetamine is classified as a prescription-only (℞) medication under FDA regulations, primarily available as an ophthalmic solution in products like Paremyd for diagnostic mydriasis.[11] It is not federally scheduled as a controlled substance by the DEA, unlike amphetamine itself, which is Schedule II.[51] However, it is listed as a controlled substance in select state schedules, such as Alabama's state-controlled list (Schedule I, as of January 16, 2025), where it falls under provisions for amphetamine derivatives.[52] Under DEA considerations, 4-Hydroxyamphetamine may be treated as a controlled substance analog in non-medical abuse contexts due to its structural and pharmacological similarity to amphetamine, invoking the Federal Analogue Act for prosecution if intended for human consumption outside approved uses.[53] Prescription guidelines restrict its use primarily to ophthalmologists for eye examinations, with requirements for patient monitoring to prevent misuse given its sympathomimetic properties.[54] Internationally, 4-Hydroxyamphetamine is regulated as a prescription-only medicinal product in regions with controls on sympathomimetics, such as the European Union under pharmaceutical laws. As of November 2025, no major regulatory changes specific to this compound have been reported since 2020.Related compounds
4-Hydroxyamphetamine is structurally and pharmacologically related to several compounds in the amphetamine family.- Amphetamine: The parent compound, from which 4-hydroxyamphetamine is primarily metabolized via CYP2D6-mediated para-hydroxylation.[55]
- Methamphetamine: A precursor that also metabolizes to 4-hydroxyamphetamine, sharing similar sympathomimetic effects.[2]
- 4-Hydroxynorephedrine (p-Hydroxynorephedrine): A β-hydroxylated metabolite of amphetamine, exhibiting related noradrenergic activity.[2]
- Pholedrine (4-Hydroxymethamphetamine): An N-methylated analog used historically as a bronchodilator.[2]
- Norephedrine (Phenylpropanolamine): Another metabolite of amphetamine, with sympathomimetic properties.[2]
- 3-Hydroxyamphetamine: The meta-isomer metabolite, less potent in norepinephrine release.[2]